Although there definitely are liquid-cooled PCs, there just isn't room for such cooling systems within smartphones – or at least, there hasn't been until now. Fujitsu recently announced development of ...

Smartphones and tablets are no strangers to the limits imposed by heat-constraints. Without proper airflow and limited space for cooling components, mobile devices are stuck balancing CPU clock speeds ...

Fujitsu has developed a new cooling solution aimed at compact electronic devices. The new heatpipe cooler design, measuring just 1mm at its thickest is said to be "capable of transferring ...

In a groundbreaking development, scientists at Nagoya University in Japan have created the world’s most powerful loop heat pipe (LHP), capable of transporting an astounding 10 kilowatts of heat ...

With a thickness of just 0.3 mm, the new UTLHP fits within slim modern phones without making them heavier, works effectively regardless of how you hold your phone, and can handle heat levels for ...

Fujitsu Labs of Kawasaki has developed a heat pipe cooling system with planar pipes less than 1mm thick. Rather than the vapour path and liquid wick sharing the same pipe as is common, the functions ...

One of the side effects of packing smartphones with ever more powerful components into smaller spaces is heat, which can be uncomfortable for the user and cause wear and tear on components. As Fujitsu ...

Researchers have developed a loop heat pipe that can transport up to 10 kW of heat without the need for electricity. A team of researchers from Nagoya University in Japan has developed a loop heat ...

This is a preview. Log in through your library . Abstract The paper presents the results of analysis, development and tests of an ammonia miniature loop heat pipe (MLHP) with a flat evaporator, which ...

Conventional heat sinks can no longer properly cool high-power electronic devices. Heat pipes more effectively transfer heat away from these devices, meeting the high-power cooling needs. Heat-pipe ...